Card selecting machine



J. T. WILSON CARD SELECTING MACHINE Filed July 3, 1937 6 Sheets-Sheet 1 1 FIG. 1.

INVENTOR 10:15PM 7. WILSOA/ ATTORNEY April J. T. WI-ILSON 2,195,845.

m sswcnne momma Filed July 3, 1937 s Shets-Shet 2 z 82 I v I, I o 77 79 B3 u I o a! [I I 0 I! I 67 9 INVENTOR ATTORNEY April 2, 1940. w sc 2,195,845

CARD SELECTING MACHINE w- H T WILSON BY- 7 (7. v1.1

ATTORNEY April 2, 1940. .1. T. WILSON CARD SELECTING MACHINE 6 Sheets-Sheet 4 Filed July 3; 1937 .,....rI.1.-'1',"IIIIIIIIIIIIIIIIII'1",

FIG. 2

ATTORNEY A ril 2, 1940. -.1. 1-. WILSON I CARD SELECTING MACHINE Filed Jul 3, 1937 6 Sheets-Sheet 5 u R/ v E 5 W Wm E d M 1m FlG. 8.

Patented Apr. 2, 1940 ."UNITED STATES,

cam) SELECTING mourns Joseph T. Wilson, Pitman, N. J.,- assignor to International Business Machines Corporation, New York, N. 1., a corporation of New York Application July 3, 1937, Serial N6. 151,861

8 Claims.

This invention relates to tabulating machines and more particularly to the type in which cards representing group control-numbers control operations of the machine and which is provided with a printing mechanism for printing the items relating to an account.

Tabulating machines are, as'is. well knowm,

controlled by tabulating cards carrying designations representing the items of an account and each account is identified by group control number designations. It is further desirable to print on a related ledger card the items of the account and to this end it has, heretofore, been proposed to pass the tabulating cards through the machine 16 in successive groups and for each group pass. a

classified ledger card, as is disclosed in the patent to F. M. Carroll No. 1,978,893 dated October 30, 1934.

Thewrequisites of the construction disclosed in this patent is that the ledger cards should be sorted so as to be in the same order as the groups of tabulating cards. These ledger cards are usually of dimensions different than the tabulating cards so thatx since a conventional sorting mechanlsmmannot be used a manual sorting operation, which is a prodigious task, is neces-' sary. Since the correlation may not follow by reason of errors, a complicated comparing mech: anism must be provided to ascertain whether the 4 number of the ledger card fed corresponds to the group control number of the tabulating cards bearing the items which are to be printed on the ledger card.

The present construction obviates the requisites pointed out above and contemplates as A still further objectof the invention is to 1 cause the shift of the selected ledger card out of normal relation, with the other ledger cards in the file so that such shifted position indicates that it is the selected ledger card, and which can b pulled manually from the file and presented to" the printing mechanism of the ,tabulating machine; I

A still further object of the invention is to provide a separateandindependently controlled led'ger car selecting machine which may be oper- 55 ated in accordance with its usual manual control,

' reference should be had to the patent-to C. D.

or which manual control may be placed'under automatic control of the tabulating machine.

Further objects of the instant invention reside in any novel feature of construction'or operation or novel combination of parts present in the 5 embodiment of the invention described and shown in the accompanying drawings whether within or without the scope of the appended claims and irrespective of other specific statements as to the scope of the invention contained 10 herein.

, In said drawings: i. Fig. 1 is a view in front elevation disclosing an interconnected tabulating machine and a ledger card selecting machine whereby the operation of II the tabulating machine selects ledger cards from Fig. 2 is a view in section showing a well known form of printing mechanism adapted for use in a tabulating machine. I go Fig. 3 is an end view of the ledger card filing and selecting machine. 1

Fig. 4 is a longitudinal sectional view of the ledger card filing and selecting machine.

Fig. 5 is a cross sectional view of the ledge 25,

card filing and selecting machine.

Fig. 6 is an end view of the printing mechanism shown-in Fig. 2.

Fig. 7 is a diagram showing the timing of cam controlled electrical. contacts involved in these present invention. I

Figs. 8 and 9 taken together with Fig. 8 at the top illustrate the electrical wiring diagram oi. both the tabulating and ledger card selecting machines.

For further explanation of details of construction and operation of the tabulating machine to which the present improvements are applied,

Lake et al. No. 1,976,617, dated October'9, 1934. 40

Intabulating machines of this class, as more particularly explained in the aforementioned patent, it is customary to send the machine through a reset cycle of operation 'to set up the automatic group control mechanism forming part 5 of the present invention. Suifice it to ,say at the present time that during the resetting operation motbr control magnet 38 (Fig. 8) is energized and a holding circuit is provided for maintaining it energized until the group control numher of the cards being analyzed changes. Contacts 38a of this relay will, thereforefbe closed and contacts 38b open.

Starting circuit-The machine is now ready to start card feeding operations after cards have been placed in the feed magazine usually provided for in tabulating machines. Depression of the start key to close contacts ST will complete a circuit as follows: from line 34, cam contracts P l, tabulating clutch magnet 22, contacts 21, start relay 39, start key contacts ST, stop 'key contacts .SP, contacts 38a (now closed), to line 35. Energization of magnet 22 will cause opening of contacts 21 and the circuit'will now include relay magnet 40 which is wired in parallel with the contacts 21. Magnet 40 will close its contacts 40a to complete a circuit through the tabulating motor as follows: from line 34, motor TM, contacts 40a, wire 3|, to line 35, thus initiating the operation of the motor. After the motor has operated through a portion of the cycle, cam contacts L| close momentarily and complete a circuit from the line 34, wire 43, relay magnet 42, contacts L-l, wire 44, contacts 40d and wire 3| to line 35.

The consequent closure of contacts 42a will set up a holding circuit for the magnet 42," traceable from line 34, wire 43, magnet 42, contacts 42a, wire 44, contacts 40a, wire 3| to line 35. Energization of the start relay magnet 39 will effect closure of its contacts 39a to set up a holding circuit forthe card feed clutch magnet 22 traceable from the line 34, cam contacts P-i, magnet 22, relay 40, magnet 39, contacts 39a, wire 45, cam contacts L-2, to line 35. Toward the end of this cycle, cam contacts L-2, break and the machine will coast through the remainder of the cycle to home position, which is, as commonly known in the art, termed the D position. A second machine cycle is now initiated by depression of the start key to close contacts ST and a second cycle will follow in the same manner as the first. During this second cycle, the first card is advanced to the lower brushes and a second card is fed from the supply magazine to the upper brushes. Following this second cycle, the machine will, as fully described in the aforementioned patent, do 'one of two things: if the automatic resetting switch 46 is open, the machine will stop; if the automatic resetting'switch 46 is closed, the machine will automatically enter upon a resetting cycle of operation.

It has thus been explained that the initiation of operations of the machine require first a resetting operation followed by two successive, manually initiated,-tabulating cycles followed by a resetting cycle which may be automatically initiated. At this point, the first card is in readiness to pass and be analyzed by the lower brushes LB and the second card is in readiness to pass and be analyzed by the upper brushes U3 and the automatic control mechanism is in readiness to compare the classification data of the cards as they pass throughthe machine.

Following the reset cycle just explained, the machine will, if automatic start switch 53 is closed, automatically enter upon card feeding and analyzing operations immediately upon completion of the last resetting cycle. This is brought about in the following manner: Lower card lever relay contacts LCLa, by a circuit to be presently explained, have been closed due to the arrival of the first card at the lower brushes LB and during the reset cycle cam contacts P2 close momentarily at the end of the cycle thereby establishing a circuit from the line 35, contacts 38a, contacts SP, LCLa and P2, switch 53, start relay magnet 39, contacts 21, tabulating clutch magnet 22, contacts Pl, to line 34. The energization of magnet 22 will, as explained above, cause the machine to enter upon a tabulating cycle of operation during which the record cards are successively analyzed and data thereon printed by the printing mechanism. Closure of lower card 'lever contacts completes a circuit from line 35, contacts 53, wire 54 leading (as shown in Fig. 9) to relay magnet wire 51, to line 34 to efiect closure of contacts LCLb and the closure of contacts LCLa (Fla. 8) mentioned above. Closure of contacts LCLb will complete a holding circuit for relay LCL through cam contacts L-G. This circuit is from line 35, contacts L6, contacts LCLb, 'magnet LCL, wire 51, to line 34. As long as record cards continue to pass the lower brushes LB magnet LCL will remain continuously energized since contacts L.6 are timed to be closed during the interval that the card lever contacts 55 open.

The upper card lever contacts 58 (Fig. 9 at the top and extreme right) similarly complete a circuit from the line 35, contacts 58, magnet UCL, wire 51, to line 34. Closure of contacts UCLb sets upa holding circuit through cam contacts L-5 whose function and timing are the same as that of contacts L6.

In certain forms of accounting practice it is desirable to determine when group control-num-- hers change so that a ledger card I60 (Fig. 5)

can be selected out of a file and presented to the printing mechanism to receive the items pertaining to the group which has the same group number as the file,number of the ledger card.

Prior to explaining the mechanism for causing the selection of the ledger cards there will be explained the operation of the printing mechanism which prints the items on' the ledger cards. As is well known printing upon the ledger card is performed by a printing mechanism under control of the brushes LB which are suitably plugged to control the printer control magnets.

Printing mechanism.The printing mechanism employed in carrying out the present invention is of a type well known in the art and is shown in Fig. 2. Sufiicient explanation will be given-herein in order to understand in a general way the manner of the operation of the printing mechanism, but for further details, reference to the aforementioned patent should be had.'

In Fig. 2, reference character |55designates as in said patent the listing shaft ofthe machine which is driven by the tabulating motor TM (Fig. 1) when the machine is adjusted to perform listing operations. To the shaft I there is secured a listing box cam 6|. The cam slot in the box cam is adapted to cooperate with a roller 52. The printing crosshead 63 is mounted for vertical reciprocation on guide rods 64 and is connected by links 65 to arms 65 which are secured to a shaft 61. Shaft 61 has secured thereto a double arm member 68, one arm of which has a mechanical cooperation with a cam follower arm 53 which carries the roller 62. By virtue of this construction, it is apparent that rotation of shaft I55 will reciprocate the crosshead 53 and thereby reciprocate type bars Ill which are carried at the upper ends of type carrying bars H. The type carrying bars 1| are slidably mounted in the crosshead 63. Their lower endsabut the free ends of arms 12 pivoted at 13 to the crosshead 63 and held in the position shown by springs 14. Thus upward movement of the crosshead 53 will be accompanied by movement in the same direction of the type bars Ill which are slidable horizontally in the type carrying bar II. The type carrying bars II are provided with a plurality of ratchet teeth 16 which cooperate with stopping 8 tion therewith.

By virtue of the spring connection 14the' type carryingbars Il may be interrupted without interfering with the upward movement of ,the crosshead'83 which has an invariable extent of 10 reciprocation controlled by the listing cam. The

stopping pawl I1 is normally held inan inoperative position by a spring-pressed pivoted latch ,18 whose lower end is connected by a rod 88 to a bell crank 8| which is pivoted at 82 and whose 15 arm constitutes the armature of a printing mag- Energization of magnet 83 will rock bellnet 83. crank member 82 in a counterclockwise direction, drawing rod 88 toward the right to unlatch the pawl TI so that it may swing into engagement 80 with teeth 16 and interrupt the further movement of the type bar H. The energization of each of the magnets 83 (Fig. 8) is controlled by the related one of the lowerbrushes LB which;

' upon sensing the perforation in the tabulating 85 card will complete the circuit to the magnet 83 and, due to the synchronization of the type bar travel with the passage of the "card by the brushes, will present to printing position the type element corresponding to thecontrolling perfora- 80 tion. i

By means of plug connections 85 (Fig. 8) the LB brushes of certain columns are shown by way of example as plug connected to correlated printing control magnets 83 of one of the printing 35 banks.

Printing hammers-The printing hammers 24 which are adapted to strike the, ends of the type elements 18 to press them against a suitable inking ribbon and the ledger card I88 surrounding n the platen 18, are of a type well knownin the art and fully described in the aforementioned patent. It'is only necessary for an understanding of the operation or the printing mechanism to know' that after all the type carrying bars 1| 5 have been differentially displaced and .held in theirdifferential positions the hammers 24 are ,released for operation to effect the desired printing impression.

Automatic control mechanism.-The automatic 5 50 control device described in detail in the aforementioned patent is employed in connection with.

the present improvement to determine whether a pair of record cards analyzed concurrently during the same tabulating machine cycle is I 55 identical with respect to their ,group control numbers. This mechanism will now be explained in detail.

A ifumber of double wound relay magnets are provided, each having a pick-up winding 88 and go a holding winding 88. ,Windings 88 terminate in plug sockets 80 and 8i by means of which the pick-up windings may be plug connected in series with the upper brushes UB and the lower brushes LB. Since the index point positions of the card 5 passing the lower brushes LBare analyzed concurrently with the analysis of the corresponding index point positions of the following card passing the upper brushes UB, perforations occurring in corresponding index positions of both cards 70 will complete a circuit to the pick-up winding 88 at a time in the cycle of the operation of the machine corresponding to the location of the perforation.

Control pick-up circuitj-Jn view 61? thefact 75 that a single double-wound relay magnet is provided for each card column, the pick-up circuit for only one column will be described, it being assumed that brushes UB and LB locate corresponding perforations of a pair of recordsat the same time. This circuit is traceable as follows: from line 34, cam contacts L- -l I, wire 82, upper brush contact roller 83, one of the upper brushes UB contacting with the roller 83 through a perforation in the record, plug socket 84, plug connection 85,socket 88, winding 88, socket 8|, plug connection 88, socket 81', to the brush LB of the corresponding column, through the perforation in the record at thelower brushes, lower brush contact roller 88, circuit breaking devices 88, lower card lever contacts 58, to the line side Control holding circuit-The control holding circuit for a single order will now be explained. lilnergization of the winding 88 will closeits contacts 88a and 88b, the former setting up'a l'lOld-r ing circuit for the winding 88which is traceable as follows: from the line 34, wire J82, cam contacts Ll2,' contacts 880; (now closed), winding 88, wire I03 to the line side 35. Contacts L-i2 hold the windings 88 energized until the end of the cycle and until the mechanism has performed its controlling function. I It-is thus apparent that the windings 88 are differentially energized in accordance with the value of the controlling perforationand that the windings 88 hold all the stick circuits to keep the contacts 881) closed in all orders in which agreement occurred .between thecards.

Since two card columns are assumed to be de-. voted to represent group numbers only two of the six double-wound relay magnets 88-88 are shownplug connected to the corresponding card columns of both, the upper brushes U3 and the lower brushes LB in the wiring diagram in- Fig.

8. Obviously, if there is an agreement in all card columns, the two sets of contacts 88b will be closed after all the index point positions have been analyzed. In the event that there is disgreem'ent in a perforation position of compared ard columns, the winding 88 of the correspondopen after the analyzing of'the numeral positions of the card has been completed.

Manual reset cycle tioned the reset key controlled contacts R (Fig.- 8) are closed to complete a circuit from the line 35, contacts L-Z now closed, wire 45, contacts 38!), contacts R, wire 41, a relay magnet 48, contacts P3 to line 34.

The closure of contacts 48a willsetup a holding circuit for magnet'48 from the line 34, contacts P-3, magnet 48, contacts 48a, to line 35; A

circuit is also completed from line 35, contacts.

close to short circuit the contacts 81 and main-,v

tain, the' circuit through motor RM and shortly thereafter contacts, P8 (Fig. 9) open to break the circuit through a magnet 84 (Fig. 9). Thismagnetwas energized during the manual reset cycle by a circuit extending from line 34 (Fig. 9),

To effect the initial reset cycle previously menmagnet 84, relay contacts 38c, relay contacts 48b, cam contacts P-3, wire 54, card lever contacts 58 to line 35. The contacts 38a are controlled by the motor control magnet 38 and are openedmagnet 38, wire I9, cam contacts L-IO, L3,

wire I83 to the right side of line 35. Relay magnet I5 closes its relay contacts I50 to establish a holding circuit from the line 34, contacts I'Ga, magnet I8 to line 35. This circuit remains closed as long as the group control numbers on the card do not change, it now being obvious that relay magnet 38 remains energized until the change in group control number occurs.

Durmg the listing cycles the relay contacts 88b provide a shunt circuit around cam contacts LIII and L9. Forexample, this shunt circuit comprises all the five relay contacts 88b used for controlling and short circuits both contacts LIfland LS the short circuit extendingf from the an lower blade of contacts LIII serially through the five selected contacts 88b in accordance with the example selected, plug connection I2I, plug socket II5, relay contacts UCLe which are closed while cards are passing the upper brushes to wire ,I83, and to line 35. Thus if at the time contacts L8 and LIII open and the control relays have registered agreement between the two cards analyzed, the holding circuit will be sustained through the contacts 88b. If at such time any of Q the contacts 881) had failed to close, the holding Analyzingof designations for ledger card selec-.

tion

Certain card columns of the tabulating card are appropriated for receiving designations for causing the selection of the ledger-cards and these designations may be the same as the designations representing the group number. That is.

the group control number may correspond with the ledger card number. If so desired, the upper brushes UB analyzing the group control designations may be plugged by plug connections to sockets 94 to control ledger card'selection but as shown in Fig. 9 certain other of the brushes D3 are shown for convenience as having plug connections I25 to sockets I26.

As best shown in' Fig; 8,-thecircuit to the upper brushes'UB extends from the line side 34, through cam contacts LII to wire 92, to the contact roller 93 and as shown' in Fig. 9, for the contact roller 33 therein the circuit then extends by the brushes analyzing the designations for ledger card selection to the plug connections-I25 to sockets I 26. From each socket I 26 the circuit is completed to a selected relay magnet I21 through an emitter Em. There are three emitters Em one for the units order, one for the tens andone for the hundreds order and the rotating brush assembly of each is driven by the listing During this cycle cam contacts.-

shaft I (see Fig. 6) and which corresponds to the same designated shaft in Patent No. 1,976,617.

The brush assembly rotates synchronously with the e of the card but the upper brushes and since at this time cam contacts LII are closed the circuit to a selected relay magnet I21 will be closed, since each set of relay magnets I21 for each order has a common wire connection I28 to the other line side 35. Each relay magnet I21 when energized closes its stick relay contacts I21a, said stick contacts for each order having a common wire connection I28 to cam contacts L34 which are connected by a wire I30 to the line side 34.

As best shown in Fig. 9 the selected relay magnet I21 will close its relay contacts I21b thereby completing at this point a circuitto a ledger card selecting magnet, numeral- I38 designating those of the units order, I3I of the tens order and I32 of the hundreds order. All of these sets of magnets have a common wire connection I33 to the line side 34 and the sets of relay contacts I21b have a common wire connection I34 to relay contacts I35a, which are connected to the line side 35. While each card passing the upper brushes causes the energizationof the selected relay magnets I21, the energization of the ledger card selecting magnets I 30, I3I and I32 is de-.

pendent upon the closure of relay contacts I350. and the time that the magnet I 35 will be energized to close these relay contacts I35a will now be explained.

The circuit for magnet I35 is shown at the top of Fig. 9 and extends from the line side 34, through a switch I36, to magnet I35, through relay contacts 389, card lever contacts UCLm,

cam contacts L32 and by a wire I31 to the line side 35.

During the initial and each reset operation the magnet 38 will be energized to open the relay contacts 38g so as to open the circuit to the magnet I35 at this point. During the first card feeding cycle the relay magnet 38 will not be energized so that relay contacts 389 will be closed at the time cam contacts L32 close. However, the upper card lever contacts 58 close after cam contacts L32 open so that while card lever contacts UCLm have closed, contacts L--32 have previously opened. Thereafter cards are presented to both the upper and lower sets of brushes, each card passing. the lower brushes causing the printing of the items represented by the cards on the ledger card previously presented to the platen; At some time a card having a different group control number will be presented to the upper brushes and the auto control mechanism will now function.

It will be recalled that during the cycle of machine operation in which a change in group control numbers was detected the motor control relay magnet 38 is deenergized thereby permitting its contacts 38gto close, and since there is a card at the upper brushes UB contacts UCIm will be closed and when contacts L32 close the magnet I35 will be energized. The latter closes its contacts I350. to cause the energization of the magnets I38, I3! and I32 selected according to the relay contacts I21b previously closed.

The manner in which the ledger selecting magnets cause the selection of the desired ledger card will now be explained.

Ledger card selecting machine The ledger card selecting machine adapted to be employed in connection with the present invention is preferably of the type shown in the patents to J. W. Whitson Nos. 2,002,807 and 2,002,808 and is disclosed in Figs. 1 (at the botherein but in suificient detail to understand its cooperation with and control by the tabulating machine.

The-machine illustrated in the patent com- I prises a card compartment I42 (Fig. 4), a'mech- 4 length of said cross members. 'I'he anism compartment I43, and a keyboard I44. The casing III is' provided with supporting frames I (Fig. 5) each of which has a shoulder I46 on its top edge at respectively opposite sides thereof, the upper edges forming the bottom sup-- porting surface of the compartment I42 so that the bottom edges. of the ledger cards I60 at opposite ends rest upon-the shoulders I46. A plu rality of holders I41 are arranged laterally across the casing I4I between the front, center, and rear ends thereof and each isprovided with a series of slots I48 (Fig-.4) cut down from the upper edge thereof and extending across the entire all the holders I41 are in alignment with each other. The loweredge of each of t I holders I41 is turned up in a U -section so that e edge I48 v is bent upwardly to be on a plane substantially flush with the bottom of slots I48.

A selector bar I50 is confined in each of the slots I48 in each of the cross members I41, each of said selector bars I50 extending from a point rearwardly of the rearmost holder I41 to a point forward of the foremost holder I41. Q The upper edge of each of the selector bars I50 lies sub-' stantially flush with the upper edge of the holder I41. Each of the selectorbars I50 has inclined slots. I5I formed therein through which rods I52 extend, said rods being attached at their opposite ends to opposite sides of the inside supporting frames I45.

A plurality of finger keys I53 comprising the keyboard I44 are mounted on levers I55 which in turn are rotatively journaled on a cross-bar 56. Each of the key levers I55 engages one of the selector bars I50 beyond the fulcrum bar I56.

Thus when any one of the finger keys 158 is depressed,'-the opposite end of the key lever is moved upwardly causing a corresponding'up'ward and forward movement of the related selector bar I50 within the limits of movement prescribed by the inclined slots I5I and cross rods I52. Each lever I55 on opposite sides of the pivotal-axis I56 is confined in the respective guide members I51 ,and I58 which are substantially the same as holders I41 but in the inverted position,'to eliminate lateral play of said levers during movement thereof.

The ledger cards I are provided with a plurality of spaced lugs-or abutments I58 I (Fig. 5) along the bottom edge thereof, the spaces between the plurality of lugs corresponding to the number of selector bars I50. Each one of the lugs or the space between any pair of lugs may represent .or be designated by any of the numbers or by any other emblems or indicia to suit the particular conditions of work of the card. The lugs or spaces on the bottom of the card are related to the finger keys on the machine whereby each key on the keyboard when depressed will always move its selector bar into a space onthe bottom of the card having a symbol corresponding with that on the key. Fig. 5 shows a card no after some of the lugs I59 have been removed .The card can be made of 'magneticallyattractive material or as shown in Fig 5, light spring-steel pieces I6I may be attached to the card edge in some conventiona1" manner. The cards must be responsive to magnetic attraction and suitable magnetically attractable material may either be incorporated in the card or attached thereto,

Operation In order to cause the card I60 shown in Fig. 5

.to be selected froma group of cards confined in the card compartment, the tabulating machine will cause certain levers. I55 to be depressed corresponding to the name, number, or title or other key." data which will distinguish that particular card from other cards. R

The card I60 from which certain of the lugs have been cut, as shown in Fig. 5, is in the card compartment I42. In order to select the card shown in Fig. 5 with the cut-out portions thereof from the stack of cards, all of the cards in the holder have at the start the left marginal edges thereof in alignment. This would be done m'anu- .ally by forcing the cards against the side wall I62 (Fig. 5) of the casing I42. An electromagnet I63 of any suitable form, size and type is arranged lengthwise of the casing I along the side thereof opposite the adjustable. wall I62; The magnet extends the full length of the casing I. By means explained in Patent No. 2,002,808 the magnet I63 is maintained in the desired position relative to the side of the card compartment. The side'of the-magnet facing the edges of the ledger cards stacked in the card com- .partment is inclined at an angle to saidcards whereby when any ledger cardor ledger cards are attracted to the magnet, said card is caused to move horizontally and then upwardly on an arc as it is withdrawn from the stack of ledger cards, as shown by dotted lines in Fig. 5. The angle of inclination of the magnet relative to the card edges may be adjusted at will through the instru- V mentality of means fully explained in Patent No...

In order to attract the-card with the cut-out portions shown in Fig.5 from the stack of cards, the tabulating machine causes certain levers I55 to be rocked and corresponding to the symbols represented by the cut-out portions on said card. The levers I 55 when rocked force the selector bars I50 upwardly into the cut-out spaces between'the lugs on said card. The selector bars would also assume a position in the spaces be-' tween the lugs on all other cards in the stack which either have or do not have cut-out portions thereon. Obviously cards that do not have lugs cut from the bottom edge thereof could not have any lateral movement inasmuch as the width of "00 the selector bar exactly'fits the space between any pair of lugs. However, for those cards where one or more lugs have been removed to provide a space between lugs greater-than the width or thickness of the selector bar then such card can close a circuit from a source of electricity to the magnet I63 to energize the magnet with electricity and to thereby magnetically attract toward the magnet one or more selected cards. When the cards I60 are in the card compartment in the "(5 60 through its relay contacts position to be selectably attracted to the magnet, the opposite edges of said cards are supported on the shoulders I (Fig. in the bottom of the card compartment and hence are free to move 5 laterally with a minimum of resistance. After the selected cards have been attracted to the magnet I53 the operator would withdraw said selected 'cards from the stack of cards. Means is then operated to return the selector bars I 5&- to a .10 position in readiness for repeating the selecting operation, and such return movement of the selector bars causes'the levers I55 to be reversely rocked to the operating position.

Referring to Fig. 9 and recalling that the selected control magnets I30, I3I and! are energized upon a change in group control it will be. seen from Fig. 4 that each of these magnets is adapted to withdraw its core It! to rock an arm I68 which draws a pitman I59 downwardly. The

latter carries a pin I 69 fitting in a slot I10 ofa related lever I55 to thus operate the same just as if a key I53 was depressed. Obviously a magnet is provided for each of the key levers I55.

From the timing diagram of Fig. 7 it will be 245 seen that cam contacts L-32 close when cam contacts L33 close and the latter remain closed for some time after contacts L-32 open. Cam contacts L-33 in conjunction with relay contacts I35b provide a shunt circuit across (Fig. 9) re- 30 lay contacts 389, UCLm, and contacts L-32 to selected magnets I30, I3I, I32 energized when cam contacts L-3I close to cause the energization of the card pulling magnet I63 the selector bars I50 will be held in their raised position so as to select the desired ledger card.

The machine stops-at the end of the last ite printing operation for a group and in order to retain the selected ledger card elevated as shown in Fig. 5 there is preferably provided a stick circuit for the magnet I63 (Fig. 9) extending I63a, cam contacts P-I2 now closed, to the line side 35; I

The next machine operation is a manually initiated total taking and reset operation which preferably prints the total by means fully ex- 56 plained and disclosed in the aforementioned Patent No. 1,976,617 upon the ledger card upon which the items or amounts pertaining to the group have been printed. The printing mechanism is, of course, provided with a line spacing so mechanism for spacing the items and totals of a form well known in the art and fully described in the Patent No; 1,976,617. The completely printed ledger card is now withdrawn and the next ledger card which has been selected is with- 05 drawn from the file after the total taking and reset operation.

The cam contacts P--I2 open during the total taking and reset operation to open the circuit through the stick contacts I830. and thus deen- 70 ergize magnet I63. While the latter no longer attracts the steel piece I6I attached to the selected ledgercard the latter will by friction between it and adjacent ledger cards remain in shifted position. This selected ledger? card corresponds to the next group of tabulating cards and is presented to the platen before the tabulating operations are resumed.

During the total taking and reset operation cam contacts P-I3 close to energize a magnet III, the latter being in series with cam contacts P--Il and lower card lever contacts LCLm and across the line wires 34, 35. When the magnet III is energized it will rotate its armature I12 (Fig. 3) and a shaft I13 attached thereto. The shaft I13, as described in Patent No. 2,002,808 is provided with a bar I'll (Fig. 4) exte: .dlng trans- 'versely and adapted to engage the forward ends of the selector bars I and move said bars downwardly and rearwardly to restore the selector bars to a position in readiness for repeating the selecting operations, and such return movement of the selector bars causes the levers I to be raisedto the operating position. t

The operation of the machine may now be resumed and by depressing the start key ST tabulating operations in connection with the next group of cards is effected.

It will be observed that if .the last group contains but a single card it will cause the automatic selection of a correlated ledger card by reason of the fact that cam contacts L-32 close before the passage of the card at the upper brushes passes card lever 50 to deenergize magnet UCL and open its. relay contacts UCLm. Hence the circuit to magnet I35 will be closed, as previously described, and the selected magnets I30, I3I, and I32 will be energized to select a ledger card appropriate to the card of the last group, even if it comprises a single card.

Also in starting up operations the proper ledger card is selected as follows: During the first card analyzing cycle as the first card traverses the upper brushes UB there is no energization of magnets 55 because thecircuittothelowerbrush contact roll 98 is open through the lower card lever contacts 55. Accordingly, when cam contacts L-I0 opens the relay 38 becomes deenergized and contacts 380 reclose. A pick-up circuit for magnet I35 is then completed upon closure of cam contacts L--32, UCLm contacts now being closed.

In the previously described manner relay contacts I35a close to cause the selected relays I21 to cause the selection of the related magnets "0-432. Subsequent operations then follow exactly as before.

-While the term ledger card is employed herein it is the desire to define this term in a generic sense since it may be an equivalent article such as a perforated record, a bill, a paper strip, etc.

While there has been shown and described and pointed out the fundamental novel features of the invention as applied to a single modification, it will be understood that various omissions and substitutions and changes in the form and details of the device illustrated and in its operation may be made by those skilled in the art without departing from the spirit of the invention. It is the intention therefore to be limited only as indicated by the scope of the following claims.

What is claimed is as follows:

1. In a tabulating machine controlled by classified groups of tabulating cards, said groups comprising one or more cards and the groups occurring in or out of an ordinal sequence, comparing means for determining a change in classification of card groups, a file adapted to hold a series of classified record elements separate from said cards and arranged therein, record selecting means comprising means for shifting a record arouses element to change the normal relationship of the shifted record element with respect to the re-' maining record elements, and means controlled by said comparing means and operative in response to a change in classification of groups of said tabulating cards for causing the operation of said selecting and shifting means.

2. In a tabulating machine controlled by classified groups of tabulating cards, said groups occurring in or out of an ordinal sequence, card analyzing means in said tabulating machine for said tabulatingcards, card comparing means for determining a change in classification of card groups, a structurally separate and independent file adapted to hold a series of classified record elements aranged therein, record selecting means comprising means in said file for shifting a rec'- ord element to change the normal relationship of the shifted record element with respect to the remaining record elements and interconnecting means between said card analyzing means and said record selectingand shifting means and 'op-' erative in response to a change in classification of card groups for causing the remote control of the record selecting and shifting rr :ans by the analyzing means in said tabulating machine.

3. In a tabulating machine controlled by classi-' ,fied groups of tabulating cards meaning in or out of an ordinal sequence, comparing means controlled by said cards for determinifig a change in card groups, a file adapted to hold a series of a record elements arranged therein, there being one record element for each tabulating cardgroup, record selecting means comprising, means controlled by said comparing means and operative in response to a change in card groups for oflsetting a record element irrespective of its position in said file, and selecting. means controlled by said tabulating-cards for causing the operation of said" shifting means.

4. In a tabulating machine controlled by classified groups of tabulating cards which occur in or out of an ordinal sequence, comparing means for comparing designations of successive cards, a file adapted to hald a series of record elements of diflerent classifications therein, electromagnetic means for oflsetting a record element, sup

plemental means controlled by said tabulating cards and controlling said electromagnetic means 'to cause said electromagnetic means to onset a selected record element, and means dependent upon a change in card groups for causing the operation of said electromagnetic means and said selecting means for selecting a record element out of the file having a classification correlated with the group of tabulating cards efiectingthe change. 1

5. In a tabulating machine controlled by classified groups of tabulating cards occurring in or out of an ordinal sequence, a file adapted to holda series oi classified record elements arranged therein, selecting means therefor comprising means cooperating with classification designations on the record elements for'selectively disposing a selected record element while it remains in the file, a group control mechanism controlled by said tabulating cards for determining a change in a group of said tabulating cards. means for analyzing classification designations of the tabulating cards for controlling said selecting means, means for preventing the operation of said -selecting means under control ofsald analyzing means, and means rendered operative by. said group control mechanism for rendering said preventing means inoperative whereby a classified record element is selected for each change in group of tabulating cards.

6. In a tabulating machine controlled by classified groups of successively fed tabulating cards,'a

file adapted to hold-a series of classified record by said analyzing means and rendered operative by the group classification analyzing means for causing the selecting means to efiect the selection 01' a record element appropriate to the numher representing designations of the tabulatlng card.

fied groups of tabulating cards occurring in or out of sequence, comparing means for determining a change in classification or card groups, a file adapted to hold a series of classified record elements arranged therein, selecting means for said record elements comprising means for shifting a record element out of normal relationship with the remaining record elements, and means controlled by said comparing means operative in response to a change in classification of groups oi said tabulating cards for causing the operation of said selecting and shifting means.

8. In a machine controlled by diflerently designated tabulating cards, comparing means controlled by said cards ior determining achange in designation of said tabulating cards, a file adapted to hold a series of records arranged=.-therein,

there being one record for each differently designated tabulating card, selecting means including means for distinguishing a selected record from the remaining records in the file. and means controlled by said comparing means and operative in response to a change in designations of cards for causing the operation of said selecting and distinguishing means to select a recordtrom theme which corresponds to a related designation on a tabulating card.

' JOSEPH '1'. wmson.

7. In a tabulatln'g machine controlled by classi 

